Influence of Antimony Species on Electrical Properties of Sb-Doped Zinc Oxide Thin Films Prepared by Pulsed Laser Deposition-Reference-Cited by-同舟云学术

Influence of Antimony Species on Electrical Properties of Sb-Doped Zinc Oxide Thin Films Prepared by Pulsed Laser Deposition

Published:2023-06-04 Issue:11 Volume:13 Page:1799
ISSN:2079-4991
Container-title:Nanomaterials
language:en
Short-container-title:Nanomaterials

Author:

Jessadaluk Sukittaya¹,Khemasiri Narathon²,Kayunkid Navaphun¹³,Rangkasikorn Adirek¹³,Wirunchit Supamas¹³,Tammarugwattana Narin⁴,Mano Kitipong⁵,Chananonnawathorn Chanunthorn⁶,Horprathum Mati⁶,Klamchuen Annop⁷^ORCID,Rahong Sakon¹^ORCID,Nukeaw Jiti¹³

Affiliation:

1. King Mongkut’s Institute of Technology Ladkrabang, College of Materials Innovation and Technology, Chalongkrung Rd., Ladkrabang, Bangkok 10520, Thailand

2. Research Institute for Electronic Science, Hokkaido University N20 W10, Kita, Sapporo 001-0020, Japan

3. Thailand Center of Excellence in Physics, Commission on Higher Education, Ministry of Higher Education, Science, Research and Innovation, Bangkok 10400, Thailand

4. Department of Instrumentation and Control Engineering, School of Engineering, King Mongkut’s Institute of Technology Ladkrabang, Chalongkrung Rd., Ladkrabang, Bangkok 10520, Thailand

5. Department of Engineering Education, School of Industrial Education and Technology, King Mongkut’s Institute of Technology Ladkrabang, Chalongkrung Rd., Ladkrabang, Bangkok 10520, Thailand

6. Opto-Electrochemical Sensing Research Team, Spectroscopic and Sensing Devices Research Group, National Electronics and Computer Technology Center, Pathum Thani 12120, Thailand

7. National Nanotechnology Center, National Science and Technology Development Agency, Pathum Thani 12120, Thailand

Abstract

This study systematically investigates the influence of antimony (Sb) species on the electrical properties of Sb-doped zinc oxide (SZO) thin films prepared by pulsed laser deposition in an oxygen-rich environment. The Sb species-related defects were controlled through a qualitative change in energy per atom by increasing the Sb content in the Sb2O3:ZnO-ablating target. By increasing the content of Sb2O3 (wt.%) in the target, Sb3+ became the dominant Sb ablation species in the plasma plume. Consequently, n-type conductivity was converted to p-type conductivity in the SZO thin films prepared using the ablating target containing 2 wt.% Sb2O3. The substituted Sb species in the Zn site (SbZn3+ and SbZn+) were responsible for forming n-type conductivity at low-level Sb doping. On the other hand, the Sb–Zn complex defects (SbZn–2VZn) contributed to the formation of p-type conductivity at high-level doping. The increase in Sb2O3 content in the ablating target, leading to a qualitative change in energy per Sb ion, offers a new pathway to achieve high-performing optoelectronics using ZnO-based p–n junctions.

Funder

Thailand Center of Excellence in Physics (ThEP), the Ministry of Education

NSRF via the Program Management Unit for Human Resources & Institutional Development, Research and Innovation

Publisher

MDPI AG

Subject

General Materials Science,General Chemical Engineering

Link

https://www.mdpi.com/2079-4991/13/11/1799/pdf

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